European industry develops space safety radar

Future radar system

12 September 2012

ESA will boost European industrial expertise by developing a new radar as part of the Agency’s Space Situational Awareness programme. The radar will test future debris monitoring techniques, helping European satellite operators avoid space hazards and increase safety in Earth orbit.

ESA and France’s ONERA – Office National d’Etudes et Recherches Aérospatiales – research centre have signed a €4 million contract that will see the French organisation and five industrial partners in France, Spain and Switzerland design a test surveillance radar and develop a demonstrator model. Work begins this month.

Radars to conduct comparative testing

“The two radar demonstrators will be part of an initial complex network of sensors, which will also make use of optical telescopes and data processing centres for observation of debris objects in all orbital regions.

“While radar technology works most efficiently for the detection of objects in low and highly elliptical orbits, optical technology is better for objects in medium and geostationary orbits.”

Radars work by emitting radio energy at a target, and then detecting the reflected signal.

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In a monostatic radar, the emitter and the receiver are at the same spot and the energy is emitted in discrete pulses.

In a bistatic radar, the emitter and receiver are set up at separate locations and the energy is emitted continuously.

For the new test radar, the emitter will be located at a former airport near Crucey-Villages, about 100 km west of Paris, while the receiver will be near Palaiseau, to the south of Paris.

Boosting European industrial competitiveness

The new contract highlights the strong support to European industry provided through ESA’s SSA activities, which began in 2009.

To date, over 25 contracts have been issued to industry for SSA-related work, with a total value in excess of €30 million.

“For the development of radar technology alone, the new contract brings the total number of contractors involved to eight, spread across four Member States,” says Nicolas.

“This represents a significant return on investment and highlights the abilities of European industry to play an active and autonomous role in developing essential tracking assets to help secure safe use of space.”